CN107204314A

CN107204314A - Hot superconductive radiating component and its manufacture method

Info

Publication number: CN107204314A
Application number: CN201710520585.3A
Authority: CN
Inventors: 仝爱星; 斯奕超; 曾巧
Original assignee: Shanghai Jiaxi Technology Co Ltd
Current assignee: Shanghai Jiaxi Technology Co Ltd
Priority date: 2017-06-30
Filing date: 2017-06-30
Publication date: 2017-09-26

Abstract

The present invention provides a kind of hot superconductive radiating component and its manufacture method, and the hot superconductive radiating component includes：Super-conductive conduit road is formed with hot superconductive radiating plate, the hot superconductive radiating plate, the Super-conductive conduit road is that heat-transfer working medium is filled with closing pipe line, the Super-conductive conduit road；The hardened structure of radiating fin, positioned at an at least surface for the hot superconductive radiating plate；The hardened structure of radiating fin includes the radiating fin that at least one is in wavy extension along the direction parallel to the hot superconductive radiating plate surface.Being formed on the surface of hot superconductive radiating plate includes at least one along radiating fin hardened structure of the direction parallel to the hot superconductive radiating plate surface in the radiating fin of wavy extension, i.e. can significantly increasing heat radiation area, be multiplied heat-sinking capability, reduce volume, mitigate weight, the bearing strength and non-deformability of the hot superconductive radiating component can be increased again.

Description

Hot superconductive radiating component and its manufacture method

Technical field

The invention belongs to technical field of heat transfer, more particularly to a kind of hot superconductive radiating component and its manufacture method.

Background technology

With the fast development of Power Electronic Technique, modularization, integrated, lightweight, cost degradation and high reliability It is required that more and more higher, therefore in solar inverter, uninterrupted power source (UPS), charging pile, power inverter (PCS), active electrical MosFET (metal oxides are generally used on the power equipments such as force filter (APF), static var compensator (SVG), frequency converter Semiconductor field effect transistor), Diode (diode), IGBT (insulated gate bipolar transistor) constant power device.Due to these The integrated level more and more higher of power component, power density is also increasing, and the heat operationally itself produced is also increasingly Greatly, heat flow density more and more higher, if the quick thermal conductivity for producing power device can not go out and remove in time, can cause power device In chip temperature rise, gently then cause efficiency to reduce, reduction of service life, failure heavy then that power device can be caused and chip Burn bombing.Therefore solve high power device high heat flux heat dissipation problem be always puzzlement high power device encapsulation manufacturer and One of key problem using manufacturer.

At present, generally radiated using the Aluminium Radiator of free convection or forced convertion, but with high power device The lifting of performance, the increase of its individual devices heat flow density, and to small volume and the raising of lightweight requirement, conventional aluminium dissipates Hot device can not meet the radiating requirements of high heat flux high power module.Therefore in the urgent need to exploitation one kind can rapidly and efficiently be led The technology of heat.

The content of the invention

The shortcoming of prior art in view of the above, it is an object of the invention to provide a kind of hot superconductive radiating component and its Manufacture method, the radiating requirements of high heat flux high power module can not be met for solving Aluminium Radiator of the prior art The problem of.

In order to achieve the above objects and other related objects, the present invention provides a kind of hot superconductive radiating component, the hot superconduction Radiating subassembly includes：

Super-conductive conduit road is formed with hot superconductive radiating plate, the hot superconductive radiating plate, the Super-conductive conduit road is closing Heat-transfer working medium is filled with pipeline, the Super-conductive conduit road；

The hardened structure of radiating fin, positioned at an at least surface for the hot superconductive radiating plate；The hardened structure bag of radiating fin Include the radiating fin that at least one is in wavy extension along the direction parallel to the hot superconductive radiating plate surface.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hot superconductive radiating plate is to include the first plate The composite board type structure of material and the second sheet material.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hot superconductive radiating plate is in one side bulging State；One surface of first sheet material or a surface of second sheet material are formed with impressing conduit；First sheet material and institute The second sheet material is stated to be combined with each other by welding procedure, and it is composite surface to be formed with the surface of the impressing conduit；Described first After sheet material is combined with second sheet material, the impressing conduit constitutes the Super-conductive conduit road.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hot superconductive radiating plate is in two-sided flat shape State；One surface of first sheet material or a surface of second sheet material are formed with etching conduit；First sheet material and institute The second sheet material is stated to be combined with each other by welding procedure, and it is composite surface to be formed with the surface of the etching conduit；Described first After sheet material is combined with second sheet material, the etching conduit constitutes the Super-conductive conduit road.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hot superconductive radiating plate is in two-sided flat shape State；One surface of first sheet material is formed with the first etching conduit, and a surface of second sheet material is formed with and described The second corresponding etching conduit of one etching conduit；First sheet material is compounded in one with second sheet material by welding procedure Rise, and it is composite surface to be formed with the surface of the first etching conduit and be formed with the described second surface for etching conduit；It is described After first sheet material is combined with second sheet material, the first etching conduit collectively forms the heat with the described second etching conduit Superconduction pipeline.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hot superconductive radiating plate is in two-sided bulging State；One surface of first sheet material is formed with the first impressing conduit, and a surface of second sheet material is formed with and described The second corresponding impressing conduit of one impressing conduit；First sheet material is compounded in one with second sheet material by welding procedure Rise, and it is composite surface to be formed with the surface of the first impressing conduit and form the described second surface for imprinting conduit；Described After one sheet material is combined with second sheet material, the first impressing conduit collectively forms the heat with the described second impressing conduit and surpassed Rodding.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hot superconductive radiating plate also includes first and answered Close solder layer, the first Combined Welding bed of material be located between first sheet material and second sheet material, first sheet material with Second sheet material is combined with each other via the first Combined Welding bed of material welding.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hardened structure of radiating fin includes one the One radiating fin sheet, the first radiating fin sheet is made up of a radiating fin, and the first radiating fin sheet is located at One surface of the hot superconductive radiating plate.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hardened structure of radiating fin also includes one Second radiating fin sheet, the second radiating fin sheet includes several described radiating fins and positioned at the radiating fin two ends Connecting portion；Several described radiating fin parallel interval arrangements, the connecting portion is integral with radiating fin several described Connection；The second radiating fin sheet and the first radiating fin sheet are located at relative two of the hot superconductive radiating plate respectively Surface.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hardened structure of radiating fin includes two the One radiating fin sheet, the first radiating fin sheet is made up of a radiating fin, two the first radiating fin sheets It is located at two relative surfaces of the hot superconductive radiating plate respectively.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hardened structure of radiating fin includes one the Two radiating fin sheets, the second radiating fin sheet includes several described radiating fins and positioned at the radiating fin two ends Connecting portion；Several described radiating fin parallel interval arrangements, the connecting portion integrally connects with radiating fin several described Connect；The second radiating fin sheet is located at a surface of the hot superconductive radiating plate.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hardened structure of radiating fin includes two the Two radiating fin sheets, the second radiating fin sheet includes several described radiating fins and positioned at the radiating fin two ends Connecting portion；Several described radiating fin parallel interval arrangements, the connecting portion integrally connects with radiating fin several described Connect；Two the second radiating fin sheets are located at two relative surfaces of the hot superconductive radiating plate respectively.

It is used as a kind of preferred scheme of the hot superconductive radiating component of the present invention, in the second radiating fin sheet, adjacent institute Radiating fin is stated to be distributed or be distributed in stagger arrangement in corresponding.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the hot superconductive radiating component also includes second The Combined Welding bed of material, the second Combined Welding bed of material is located between the hardened structure of the radiating fin and the hot superconductive radiating plate, institute State the surface that the hardened structure of radiating fin is welded in the hot superconductive radiating plate via the second Combined Welding bed of material.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, the length of the hardened structure of radiating fin and institute The length for stating hot superconductive radiating plate is identical, the width phase of the width of the hardened structure of radiating fin and the hot superconductive radiating plate Together.

As a kind of preferred scheme of the hot superconductive radiating component of the present invention, it is first convex that the radiating fin includes several Play structure and several second bulge-structures, the protrusion direction of second bulge-structure and the projection of first bulge-structure In the opposite direction, and the length direction of first bulge-structure and second bulge-structure along the radiating fin is alternately connected Arrangement；The radiating fin is provided with several thermal vias, and the thermal vias is located at the top of first bulge-structure Or/and the top of second bulge-structure.

The present invention also provides a kind of manufacture method of hot superconductive radiating component, the manufacture method of the hot superconductive radiating component Including：Hot superconductive radiating plate and the hardened structure of radiating fin are prepared, the hardened structure of radiating fin is fixed on institute by welding procedure State an at least surface for hot superconductive radiating plate；Wherein, the hardened structure of the radiating fin includes at least one along parallel to the heat The direction of superconductive radiating plate surface is in the radiating fin of wavy extension.

It is used as a kind of preferred scheme of the manufacture method of the hot superconductive radiating component of the present invention, the hot superconductive radiating component Manufacture method comprise the following steps：

First sheet material and the second sheet material are provided, wherein, a surface of first sheet material and second sheet material is compound Face, first sheet material and second sheet material surface relative with the composite surface are non-composite face；In first sheet material And composite surface formation impressing conduit or etching conduit at least one of both second sheet material；

Prepare the hardened structure of radiating fin；

First sheet material and second sheet material are combined with each other by welding procedure to form composite board type structure Hot superconductive radiating plate, the impressing conduit or the etching conduit constitute the Super-conductive conduit road；And by the radiating fin Hardened structure is fixed on an at least surface for the hot superconductive radiating plate by welding procedure；

Heat-transfer working medium is filled with into the Super-conductive conduit road, and seals the Super-conductive conduit road.

As a kind of preferred scheme of the manufacture method of the hot superconductive radiating component of the present invention, in first sheet material and institute The composite surface for stating at least one of both the second sheet material is formed before the impressing conduit or the etching conduit, is additionally included in institute State the composite surface of the first sheet material or the composite surface first Combined Welding bed of material of formation of second sheet material, and in first sheet material and The step of non-composite face of at least one of both second sheet material forms the second Combined Welding bed of material.

As a kind of preferred scheme of the manufacture method of the hot superconductive radiating component of the present invention, by first sheet material and institute The second sheet material is stated to be combined with each other to form the hot superconductive radiating plate of composite board type structure by welding procedure, and by the radiating At least surface that fin plate structure is fixed on the hot superconductive radiating plate by welding procedure comprises the following steps：

The composite surface of the composite surface of first sheet material and second sheet material is pasted via the first Combined Welding bed of material It is combined；Insert filling tube and fixation between first sheet material and second sheet material, the filling tube is by the pressure Print conduit or the etching conduit are communicated with the outside；

The hardened structure of the radiating fin is arranged at least one of both first sheet material and second sheet material Outside is simultaneously fixed using welding fixture, and the hardened structure of radiating fin is via the second Combined Welding bed of material and first sheet material And fit together at least one of both second sheet material；

Said structure is placed in atmosphere furnace or vacuum drying oven and welded.

As a kind of preferred scheme of the manufacture method of the hot superconductive radiating component of the present invention, into the Super-conductive conduit road The step of being filled with before heat-transfer working medium, in addition to detect the air-tightness on the Super-conductive conduit road.

As described above, the hot superconductive radiating component and its manufacture method of the present invention, have the advantages that：

Being formed on the surface of hot superconductive radiating plate includes at least one along the side parallel to the hot superconductive radiating plate surface To the hardened structure of the radiating fin of the radiating fin in wavy extension, you can with significantly increasing heat radiation area, be multiplied radiating Ability, reduces volume, mitigates weight, can increase the bearing strength and non-deformability of the hot superconductive radiating component again；

Super-conductive conduit road in the hot superconductive radiating plate is formed by extruding or etching, and the first sheet material and the second sheet material are logical Cross welding procedure to be combined with each other, compared with the hot superconductive plate of existing composite inflation, without using materials such as graphite, seal welding holds Easily, high yield rate；First sheet material can use different materials from the second sheet material, and the intensity of hot superconductive radiating plate is high, is applicable model Enclose wide；The Super-conductive conduit road of the labyrinth of different structure shape and combinations thereof is conveniently formed, channel interior is convenient to set reinforcing Heat transfer structure；Meanwhile, hot superconductive radiating plate of the invention has accurate size compared to the hot superconductive plate of existing composite inflation, criticized Measure production cost it is low, suitable for large-scale production the advantages of；

, can be by once welding between the hardened structure of radiating fin and hot superconductive radiating plate between first sheet material and the second sheet material Connect technique to be welded and fixed, simplify technique, reduce manufacturing cost, so as to improve production capacity and efficiency.

Brief description of the drawings

Fig. 1 is shown as the structural representation of the hot superconductive radiating component provided in the embodiment of the present invention one.

Fig. 2 is shown as in the hot superconductive radiating component that is provided in the embodiment of the present invention one having Cellular Networks trellis Super-conductive conduit The dimensional structure diagram of the hot superconductive radiating plate on road.

Fig. 3 is shown as in the hot superconductive radiating component that is provided in the embodiment of the present invention one having rectangle net trellis Super-conductive conduit The dimensional structure diagram of the hot superconductive radiating plate on road.

Fig. 4 is shown as in the hot superconductive radiating component that provides in the embodiment of the present invention one dissipating in the hot superconduction of one side bulging state The configuration schematic diagram of hot plate.

Fig. 5 is shown as in the hot superconductive radiating component that provides in the embodiment of the present invention one dissipating in the hot superconduction of one side bulging state Partial cross section's structural representation of hot plate.

Fig. 6 is shown as the surface of the second sheet material one in the hot superconductive radiating component that is provided in the embodiment of the present invention one and is formed with erosion Cutting road, and the configuration schematic diagram of the hot superconductive radiating plate in two-sided flat shape state.

Fig. 7 is shown as the surface of the second sheet material one in the hot superconductive radiating component that is provided in the embodiment of the present invention one and is formed with erosion Cutting road, and partial cross section's structural representation of the hot superconductive radiating plate in two-sided flat shape state.

Fig. 8 is shown as in the hot superconductive radiating component that provides in the embodiment of the present invention one dissipating in the hot superconduction of two-sided bulging state The configuration schematic diagram of hot plate.

Fig. 9 is shown as in the hot superconductive radiating component that provides in the embodiment of the present invention one dissipating in the hot superconduction of two-sided bulging state Partial cross section's structural representation of hot plate.

Figure 10 is shown as the hot superconductive radiating that the hot superconductive radiating plate that is provided in the embodiment of the present invention one is in one side bulging state The configuration schematic diagram of component.

Figure 11 is shown as the hot superconductive radiating that the hot superconductive radiating plate that is provided in the embodiment of the present invention one is in one side bulging state The cross section structure schematic diagram of component.

Figure 12 is shown as the hot superconductive radiating that the hot superconductive radiating plate that is provided in the embodiment of the present invention two is in one side bulging state The configuration schematic diagram of component.

Figure 13 is shown as the hot superconductive radiating that the hot superconductive radiating plate that is provided in the embodiment of the present invention two is in one side bulging state The cross section structure schematic diagram of component.

Figure 14 is shown as the hot superconductive radiating that the hot superconductive radiating plate that is provided in the embodiment of the present invention five is in one side bulging state The configuration schematic diagram of component.

Figure 15 is shown as the hot superconductive radiating that the hot superconductive radiating plate that is provided in the embodiment of the present invention five is in one side bulging state The cross section structure schematic diagram of component.

Component label instructions

1 hot superconductive radiating plate

11 first sheet materials

12 second sheet materials

13 Super-conductive conduit roads

131 impressing conduits

132 first impressing conduits

133 second impressing conduits

134 etching conduits

14 non-pipeline portions

15 is raised

The 16 first Combined Welding bed of materials

17 filling tubes

18 filling exits

The hardened structure of 2 radiating fins

21 radiating fins

211 first bulge-structures

212 second bulge-structures

22 first radiating fin sheets

23 second radiating fin sheets

231 connecting portions

24 thermal vias

The 3 second Combined Welding bed of materials

Embodiment

Illustrate embodiments of the present invention below by way of specific instantiation, those skilled in the art can be by this specification Disclosed content understands other advantages and effect of the present invention easily.The present invention can also pass through specific realities different in addition The mode of applying is embodied or practiced, the various details in this specification can also based on different viewpoints with application, without departing from Various modifications or alterations are carried out under the spirit of the present invention.

Fig. 1 is referred to Figure 15.It should be noted that the diagram provided in the present embodiment only illustrates this in a schematic way The basic conception of invention, though only display is with relevant component in the present invention rather than according to package count during actual implement in diagram Mesh, shape and size are drawn, and form, quantity and the ratio of each component can be a kind of random change during its actual implementation, and its Assembly layout form may also be increasingly complex.

Embodiment one

Fig. 1 to Figure 11 is referred to, the present invention provides a kind of hot superconductive radiating component, and the hot superconductive radiating component includes： Super-conductive conduit road 13 is formed with hot superconductive radiating plate 1, the hot superconductive radiating plate 1, the Super-conductive conduit road 13 is sealed tube Heat-transfer working medium (not shown) is filled with road, the Super-conductive conduit road 13；The hardened structure 2 of radiating fin, the radiating fin is hardened Structure 2 is located at a surface of the hot superconductive radiating plate 1；The hardened structure 2 of radiating fin includes at least one along parallel to described The direction on the hot surface of superconductive radiating plate 1 is in the radiating fin 21 of wavy extension；Specifically, the radiating fin 21 can be along institute The length direction for stating hot superconductive radiating plate 1 is in wavy extension, can also be in ripple along the width of the hot superconductive radiating plate 1 Wave-like extends.

It should be noted that hot super heat conduction, which is included in closed interconnected micro-channel system, fills work Medium, the hot pipe technique of hot superconductive heat transfer is realized with condensation phase transformation by the evaporation of working media；And by controlling enclosed system Middle working media micro-architectural state, i.e., in diabatic process, the boiling (or condensation of gaseous medium) of liquid medium is suppressed, and The uniformity of working medium micro-structural is reached on this basis, and is realized the phase transformation of efficient heat transfer and suppressed (PCI) heat transfer technology.This implementation In example, the hot superconductive radiating plate 1 can suppress heat sink, now, the heat transfer in the hot superconductive radiating plate 1 for phase transformation Working medium, which is seethed with excitement or condensed during heat transfer, to be suppressed, and is reached the uniformity of working medium micro-structural on this basis and realized biography Heat.In the present embodiment, the hot superconductive radiating plate 1 can also be adopting heat pipes for heat transfer plate, now, in the hot superconductive radiating plate 1 The heat-transfer working medium is carried out continuously evaporation endothermic in diabatic process and the phase transformation of condensation heat release circulates to realize flash heat transfer.

As an example, the heat-transfer working medium is fluid, it is preferable that the heat-transfer working medium can be gas or liquid or gas With the mixture of liquid, it is further preferable that in the present embodiment, the heat-transfer working medium is the mixture of liquid and gas.

As an example, the Super-conductive conduit road 13 in the hot superconductive radiating plate 1 is shaped as hexagonal honeycomb shape (such as Shown in Fig. 2), circular cellular, quadrangle cellular (as shown in Figure 3), head and the tail multiple U-shapeds, rhombus, triangle, the circle connected Any combination more than annular, crisscross netted or any of which.

As an example, as shown in Fig. 4 to Fig. 9, the hot superconductive radiating plate 1 is to include the first sheet material 11 and the second sheet material 12 Composite board type structure.

In one example, as shown in Figures 4 and 5, the hot superconductive radiating plate 1 is in one side bulging state；First sheet material 11 surface is formed with impressing conduit 131；First sheet material 11 is compounded in second sheet material 12 by welding procedure Together, and be formed with it is described impressing conduit 131 surface be composite surface；First sheet material 11 is combined with second sheet material 12 Afterwards, the impressing conduit 131 constitutes the Super-conductive conduit road 13.Certainly, in other examples, or only described second One surface of sheet material 12 is formed with the impressing conduit 131.The impressing conduit 131 is to be molded to imprint by using Leng Ji Ya Duan Mould imprinted on a flat board formed by conduit, form on a surface of first sheet material 11 the impressing conduit 131 Meanwhile, another surface of first sheet material 11 is formed with the projection 15 corresponding with the impressing conduit 131.

In another example, as shown in FIG. 6 and 7, the hot superconductive radiating plate 1 is in two-sided flat shape state；First plate One surface of material 11 is formed with etching conduit 134；First sheet material 11 is compound by welding procedure with second sheet material 12 Together, and be formed with it is described etching conduit 134 surface be composite surface；First sheet material 11 is answered with second sheet material 12 After conjunction, the etching conduit 134 constitutes the Super-conductive conduit road 13.Certainly, in other examples, or only described the One surface of two sheet materials 12 is formed with the etching conduit 134.The etching conduit 134 can be using smart Carving Machining or erosion Carve the conduit processed.

In another example, the hot superconductive radiating plate 11 is in two-sided flat shape state；One surface shape of first sheet material 11 Into there is the first etching conduit (not shown), a surface of second sheet material 12 is formed with corresponding with the described first etching conduit Second etching conduit (not shown)；First sheet material 11 is combined with each other with second sheet material 12 by welding procedure, And it is composite surface to be formed with the surface of the first etching conduit and be formed with the described second surface for etching conduit；Described first After sheet material 11 is combined with second sheet material 12, the first etching conduit collectively forms the heat with the described second etching conduit Superconduction pipeline 13.The first etching conduit and the described second shape for etching conduit can be and the etching conduit 134 Shape is identical；The first etching conduit and the second etching conduit can be to be formed using smart Carving Machining or etching and processing Conduit.

In another example, as can be seen from figures 8 and 9, the hot superconductive radiating plate 1 is in two-sided bulging state；First plate One surface of material 11 is formed with the first impressing conduit 132, and a surface of second sheet material 12 is formed with and the described first impressing The second corresponding impressing conduit 133 of conduit 132；First sheet material 11 is compound by welding procedure with second sheet material 12 Together, and be formed with it is described first impressing conduit 132 surface and formed it is described second impressing conduit 132 surface be compound Face；After first sheet material 11 is combined with second sheet material 12, the first impressing conduit 132 and the described second impressing conduit 133 collectively form the Super-conductive conduit road 13.It is described first impressing conduit 132 and it is described second impressing conduit 133 be to pass through Using Leng Ji Ya Duan shaping impressing mould imprinted on a flat board formed by conduit, in a surface shape of first sheet material 11 While into the described first impressing conduit 132, another surface of first sheet material 11 is formed with and the described first impressing conduit 132 corresponding projections 15, it is described while the second impressing conduit 133 are formed on a surface of second sheet material 12 Another surface of second sheet material 12 is formed with the projection 15 corresponding with the described second impressing conduit 133.

As an example, please continue to refer to Fig. 4 to Fig. 9, the hot superconductive radiating plate 1 also includes the first Combined Welding bed of material 16, The first Combined Welding bed of material 16 is located between first sheet material 11 and second sheet material 12, first sheet material 11 and institute The second sheet material 12 is stated to be combined with each other via the first Combined Welding bed of material 16 welding.The first Combined Welding bed of material 16 can position In the surface of first sheet material 11 or the surface positioned at second sheet material 12, with the first Combined Welding bed of material described in Fig. 5 and Fig. 9 16 are located at a surface of second sheet material 12 as an example, the first Combined Welding bed of material 16 can be only located at non-pipeline portions Region, i.e., the described first Combined Welding bed of material 16 can be only located at the area that second sheet material 12 is combined with first sheet material 11 Second sheet material 12 can also be completely covered in domain, the first Combined Welding bed of material 16, i.e., the described first Combined Welding bed of material 16 can Positioned at the region of non-pipeline portions, the region where the Super-conductive conduit road 13 is located at again, as shown in Fig. 5 and Fig. 9.

It should be noted that the heat-transfer working medium in the Super-conductive conduit road 13 is to be filled by a filling tube 17 via filling exit 18 Enter, after heat-transfer working medium is filled with the Super-conductive conduit road 13, the filling tube 17 is pressed and cut with tool, then is led to Cross argon arc welding machine and welded seal is carried out to the filling exit 18, to ensure that the Super-conductive conduit road 13 is sealing pipeline.

As an example, the hot superconductive radiating component also includes the second Combined Welding bed of material 3, the second Combined Welding bed of material 3 Between the hardened structure 2 of the radiating fin and the hot superconductive radiating plate 1, the hardened structure 2 of radiating fin is via described The two Combined Welding bed of materials 3 are welded in the surface of the hot superconductive radiating plate 1.

As an example, the length of the hardened structure 2 of radiating fin can be identical with the length of the hot superconductive radiating plate 1, The width of the hardened structure 2 of radiating fin is identical with the width of the hot superconductive radiating plate 1.Certainly, in other examples, it is described The length of the hardened structure 2 of radiating fin is also less than the length of the hot superconductive radiating plate 1, the hardened structure 2 of radiating fin Width is also less than the width of the hot superconductive radiating plate 1；In another example, the length of the hardened structure 2 of radiating fin The length of the hot superconductive radiating plate 1 can also be more than, the width of the hardened structure 2 of radiating fin can also be more than the heat and surpass Lead the width of heat sink 1.

As an example, as shown in Figures 10 and 11, the hardened structure 2 of radiating fin includes a first radiating fin sheet 22, the first radiating fin sheet 22 is made up of a radiating fin 21, and the first radiating fin sheet 22 is located at described One surface of hot superconductive radiating plate 1.It should be noted that Figure 10 and Figure 11 with the hot superconductive radiating plate 1 be one side bulging state, And the first radiating fin sheet 22 be located at the hot superconductive radiating plate 1 in do not have in raised 15 plane as an example, In other examples, the first radiating fin sheet 22 may be located on on raised 15 crowning, i.e., and described One radiating fin sheet 22 may be located on the surface of the first second sheet material 12 away from as described in of sheet material 11 described in Figure 10 and Figure 11 On.

It should be noted that the first radiating fin sheet 22 be made up of a radiating fin 21 refer to it is whole described First radiating fin sheet 22 is an edge parallel to the radiating fin that the direction on the hot surface of superconductive radiating plate 1 is in wavy extension Piece 21.

As an example, the first radiating fin sheet 22 includes several first bulge-structures 211 and several are second convex Play structure 212, the protrusion direction of the protrusion direction of second bulge-structure 212 and first bulge-structure 211 on the contrary, and Length direction of first bulge-structure 211 with second bulge-structure 212 along the first radiating fin sheet 22 replaces Connection arrangement；The first radiating fin sheet 22 is provided with several thermal vias 24, and the thermal vias 24 can be only located at The top of first bulge-structure 211, can also be located at the top of second bulge-structure 212, can also be located at simultaneously The top of first bulge-structure 211 and the top of second bulge-structure 212.

Embodiment two

Figure 12 and Figure 13 is referred to, the present embodiment also provides a kind of hot superconductive radiating component, the heat described in the present embodiment The structure of superconductor component is roughly the same with the structure of the hot superconductive radiating component described in embodiment one, and the difference of the two is： In embodiment one, the hardened structure 2 of radiating fin includes first radiating fin sheet 22, the first radiating fin sheet 22 by One radiating fin 21 is constituted；And in the present embodiment, the hardened structure 2 of radiating fin includes a second radiating fin sheet 23, the second radiating fin sheet 23 includes several described radiating fins 21 and the connection positioned at the two ends of radiating fin 21 Portion 231；Several the described parallel interval of radiating fin 21 arrangements, the connecting portion 231 and radiating fin several described 21 are equal Integrally connected；The second radiating fin sheet 23 is located at a surface of the hot superconductive radiating plate 1.

As an example, in the second radiating fin sheet 23, the radiating fin 21 includes several the first raised knots Structure 211 and several second bulge-structures 212, the protrusion direction of second bulge-structure 212 and first bulge-structure 211 protrusion direction on the contrary, and first bulge-structure 211 and second bulge-structure 212 along the radiating fin 21 Length direction alternately connection arrangement；The radiating fin 21 is provided with several thermal vias 24, and the thermal vias 24 can To be only located at the top of first bulge-structure 211, the top of second bulge-structure 212 can also be located at, can be with Simultaneously positioned at the top of first bulge-structure 211 and the top of second bulge-structure 212.

As an example, in the second radiating fin sheet 23, the adjacent radiating fin 21 can be distributed in corresponding, It can also be distributed in stagger arrangement, as shown in FIG. 12 and 13.It should be noted that the adjacent radiating fin 21 is in one-to-one corresponding point Cloth refers to：First bulge-structure 211 of the adjacent radiating fin 21 is corresponded, and the second of the adjacent radiating fin 21 Bulge-structure 212 is corresponded；The adjacent radiating fin 21 refers in stagger arrangement distribution：The first of radiating fin 21 is convex described in one Play structure 211 corresponding with the second bulge-structure 212 of the radiating fin 21 adjacent thereto, and the radiating fin 21 The second bulge-structure 212 it is corresponding with the first bulge-structure 211 of the radiating fin 21 adjacent thereto.

Embodiment three

The present embodiment also provides a kind of hot superconductive radiating component, the structure and reality of the hot superconductor component described in the present embodiment The structure for applying hot superconductive radiating component described in example one is roughly the same, and the difference of the two is：In embodiment one, the radiating Fin plate structure 2 includes a first radiating fin sheet 22, and the first radiating fin sheet 22 is located at the hot superconductive radiating plate 1 A surface；And in the present embodiment, the hardened structure 2 of radiating fin includes two the first radiating fin sheets 22, two institutes State the first radiating fin sheet 22 and be located at two relative surfaces of the hot superconductive radiating plate 1 respectively.

Example IV

The present embodiment also provides a kind of hot superconductive radiating component, the structure and reality of the hot superconductor component described in the present embodiment The structure for applying hot superconductive radiating component described in example two is roughly the same, and the difference of the two is：In embodiment one, the radiating Fin plate structure 2 includes a second radiating fin sheet 23, and the second radiating fin sheet 23 is located at the hot superconductive radiating plate 1 A surface；And in the present embodiment, the hardened structure 2 of radiating fin includes two the second radiating fin sheets 23, two institutes State the second radiating fin sheet 23 and be located at two relative surfaces of the hot superconductive radiating plate 1 respectively.

Embodiment five

Figure 14 and Figure 15 is referred to, the present embodiment also provides a kind of hot superconductive radiating component, the heat described in the present embodiment The structure of superconductor component is roughly the same with the structure of the hot superconductive radiating component described in embodiment one, and the difference of the two is： In embodiment one, the hardened structure 2 of radiating fin includes a first radiating fin sheet 22, the first radiating fin sheet 22 In a surface of the hot superconductive radiating plate 1；And in the present embodiment, the hardened structure 2 of radiating fin is described in embodiment one The hardened structure 2 of radiating fin on the basis of be additionally arranged one second radiating fin sheet 23, if the second radiating fin sheet 23 include Dry the radiating fin 21 and the connecting portion 231 positioned at the two ends of radiating fin 21；Several described radiating fins 21 are flat Between-line spacing is arranged, the connecting portion 231 and several equal integrally connecteds of radiating fin 21；The first radiating fin sheet 22 It is located at relative two surfaces of the hot superconductive radiating plate 1 respectively with the second radiating fin sheet 23.Second radiating fin The concrete structure of sheet 23 is identical with the concrete structure of the second radiating fin sheet 23 described in embodiment two, please specifically join Embodiment two is read, is not repeated herein.

Embodiment six

The present embodiment also provides a kind of manufacture method of hot superconductive radiating component, the manufacturer of the hot superconductive radiating component Method is suitable to prepare the hot superconductive radiating component as described in any embodiment into embodiment five of embodiment one, and the hot superconduction dissipates The manufacture method of hot component includes：Hot superconductive radiating plate and the hardened structure of radiating fin are prepared, the hardened structure of radiating fin passes through Welding procedure is fixed on an at least surface for the hot superconductive radiating plate；Wherein, the hardened structure of the radiating fin includes at least one Individual edge is parallel to the radiating fin that the direction of the hot superconductive radiating plate surface is in wavy extension.

As an example, the manufacture method of the hot superconductive radiating component comprises the following steps：

Prepare the hardened structure of radiating fin；

As an example, the composite surface at least one of both first sheet material and second sheet material forms the pressure Print before conduit or the etching conduit, be additionally included in the composite surface of first sheet material or the composite surface shape of second sheet material The is formed into the first Combined Welding bed of material, and in the non-composite face of at least one of both first sheet material and second sheet material The step of two Combined Welding bed of materials.

As an example, in the composite surface or composite surface the first composite solder of formation of second sheet material of first sheet material Layer, and at least one of both first sheet material and second sheet material non-composite face formed the second Combined Welding bed of material it Afterwards, the surface coating scaling powder and the step of drying of the first Combined Welding bed of material and the second Combined Welding bed of material are additionally included in Suddenly.

The hardened structure of the radiating fin is suppressed as an example, can use but be not limited only to impressing mould.

As an example, it is compound to be formed that first sheet material and second sheet material are combined with each other by welding procedure The hot superconductive radiating plate of plank frame, and the hardened structure of the radiating fin is fixed on the hot superconductive radiating by welding procedure An at least surface for plate comprises the following steps：

As an example, being filled with into the Super-conductive conduit road before heat-transfer working medium, in addition to detect the Super-conductive conduit road Air-tightness the step of.

In summary, the present invention provides a kind of hot superconductive radiating component and its manufacture method, the hot superconductive radiating component Including：Super-conductive conduit road is formed with hot superconductive radiating plate, the hot superconductive radiating plate, the Super-conductive conduit road is sealed tube Heat-transfer working medium is filled with road, the Super-conductive conduit road；The hardened structure of radiating fin, positioned at least the one of the hot superconductive radiating plate Surface；The hardened structure of radiating fin includes at least one along the direction parallel to the hot superconductive radiating plate surface in wavy The radiating fin of extension.Being formed on the surface of hot superconductive radiating plate includes at least one along parallel to the hot superconductive radiating plate table The direction in face is in the hardened structure of radiating fin of the radiating fin of wavy extension, you can with significantly increasing heat radiation area, into multiplication Plus heat-sinking capability, reduce volume, mitigate weight, the bearing strength and resistance to deformation energy of the hot superconductive radiating component can be increased again Power；Super-conductive conduit road in the hot superconductive radiating plate is formed by extruding or etching, and the first sheet material and the second sheet material pass through weldering Connect process combining together, compared with the hot superconductive plate of existing composite inflation, without using materials such as graphite, seal welding is easy, High yield rate；First sheet material can use different materials from the second sheet material, and the intensity of hot superconductive radiating plate is high, the scope of application Extensively；The Super-conductive conduit road of the labyrinth of different structure shape and combinations thereof is conveniently formed, channel interior is convenient to set reinforcing to pass Heat structure；Meanwhile, hot superconductive radiating plate of the invention has accurate size, batch compared to the hot superconductive plate of existing composite inflation Production cost is low, suitable for large-scale production the advantages of；Between first sheet material and the second sheet material, the hardened structure of radiating fin and hot superconduction It can be welded and fixed between heat sink by a welding procedure, simplify technique, reduce manufacturing cost, so as to improve production Energy.

The above-described embodiments merely illustrate the principles and effects of the present invention, not for the limitation present invention.It is any ripe Know the personage of this technology all can carry out modifications and changes under the spirit and scope without prejudice to the present invention to above-described embodiment.Cause This, those of ordinary skill in the art is complete without departing from disclosed spirit and institute under technological thought such as Into all equivalent modifications or change, should by the present invention claim be covered.

Claims

1. a kind of hot superconductive radiating component, it is characterised in that the hot superconductive radiating component includes：

Super-conductive conduit road is formed with hot superconductive radiating plate, the hot superconductive radiating plate, the Super-conductive conduit road is closing pipe line, Heat-transfer working medium is filled with the Super-conductive conduit road；

The hardened structure of radiating fin, positioned at an at least surface for the hot superconductive radiating plate；The hardened structure of radiating fin is included extremely A few edge is parallel to the radiating fin that the direction of the hot superconductive radiating plate surface is in wavy extension.

2. hot superconductive radiating component according to claim 1, it is characterised in that：The hot superconductive radiating plate is to include first The composite board type structure of sheet material and the second sheet material.

3. hot superconductive radiating component according to claim 2, it is characterised in that：The hot superconductive radiating plate is in one side bulging State；One surface of first sheet material or a surface of second sheet material are formed with impressing conduit；First sheet material and institute The second sheet material is stated to be combined with each other by welding procedure, and it is composite surface to be formed with the surface of the impressing conduit；Described first After sheet material is combined with second sheet material, the impressing conduit constitutes the Super-conductive conduit road.

4. hot superconductive radiating component according to claim 2, it is characterised in that：The hot superconductive radiating plate is in two-sided flat shape State；One surface of first sheet material or a surface of second sheet material are formed with etching conduit；First sheet material and institute The second sheet material is stated to be combined with each other by welding procedure, and it is composite surface to be formed with the surface of the etching conduit；Described first After sheet material is combined with second sheet material, the etching conduit constitutes the Super-conductive conduit road.

5. hot superconductive radiating component according to claim 2, it is characterised in that：The hot superconductive radiating plate is in two-sided flat shape State；One surface of first sheet material is formed with the first etching conduit, and a surface of second sheet material is formed with and described The second corresponding etching conduit of one etching conduit；First sheet material is compounded in one with second sheet material by welding procedure Rise, and it is composite surface to be formed with the surface of the first etching conduit and be formed with the described second surface for etching conduit；It is described After first sheet material is combined with second sheet material, the first etching conduit collectively forms the heat with the described second etching conduit Superconduction pipeline.

6. hot superconductive radiating component according to claim 2, it is characterised in that：The hot superconductive radiating plate is in two-sided bulging State；One surface of first sheet material is formed with the first impressing conduit, and a surface of second sheet material is formed with and described The second corresponding impressing conduit of one impressing conduit；First sheet material is compounded in one with second sheet material by welding procedure Rise, and it is composite surface to be formed with the surface of the first impressing conduit and form the described second surface for imprinting conduit；Described After one sheet material is combined with second sheet material, the first impressing conduit collectively forms the heat with the described second impressing conduit and surpassed Rodding.

7. the hot superconductive radiating component according to any one of claim 2 to 6, it is characterised in that：The hot superconductive radiating Plate also includes the first Combined Welding bed of material, and the first Combined Welding bed of material is located between first sheet material and second sheet material, First sheet material is combined with each other with second sheet material via the first Combined Welding bed of material welding.

8. hot superconductive radiating component according to claim 1, it is characterised in that：The hardened structure of radiating fin includes one First radiating fin sheet, the first radiating fin sheet is made up of a radiating fin, the first radiating fin sheet position In a surface of the hot superconductive radiating plate.

9. hot superconductive radiating component according to claim 8, it is characterised in that：The hardened structure of radiating fin also includes one Individual second radiating fin sheet, the second radiating fin sheet includes several described radiating fins and positioned at the radiating fin two The connecting portion at end；Several described radiating fin parallel interval arrangements, the connecting portion and radiating fin several described are homogeneous Body is connected；The second radiating fin sheet and the first radiating fin sheet be located at respectively the hot superconductive radiating plate it is relative two Individual surface.

10. hot superconductive radiating component according to claim 1, it is characterised in that：The hardened structure of radiating fin includes two Individual first radiating fin sheet, the first radiating fin sheet is made up of a radiating fin, two first radiating fins Sheet is located at two relative surfaces of the hot superconductive radiating plate respectively.

11. hot superconductive radiating component according to claim 1, it is characterised in that：The hardened structure of radiating fin includes one Individual second radiating fin sheet, the second radiating fin sheet includes several described radiating fins and positioned at the radiating fin two The connecting portion at end；Several described radiating fin parallel interval arrangements, the connecting portion and radiating fin several described are homogeneous Body is connected；The second radiating fin sheet is located at a surface of the hot superconductive radiating plate.

12. hot superconductive radiating component according to claim 1, it is characterised in that：The hardened structure of radiating fin includes two Individual second radiating fin sheet, the second radiating fin sheet includes several described radiating fins and positioned at the radiating fin two The connecting portion at end；Several described radiating fin parallel interval arrangements, the connecting portion and radiating fin several described are homogeneous Body is connected；Two the second radiating fin sheets are located at two relative surfaces of the hot superconductive radiating plate respectively.

13. the hot superconductive radiating component according to any one of claim 9,11 or 12, it is characterised in that：Described second dissipates In hot fin plate, the adjacent radiating fin is distributed in corresponding or is distributed in stagger arrangement.

14. hot superconductive radiating component according to claim 1, it is characterised in that：The hot superconductive radiating component also includes The second Combined Welding bed of material, the second Combined Welding bed of material be located at the hardened structure of the radiating fin and the hot superconductive radiating plate it Between, the hardened structure of radiating fin is welded in the surface of the hot superconductive radiating plate via the second Combined Welding bed of material.

15. hot superconductive radiating component according to claim 1, it is characterised in that：The length of the hardened structure of radiating fin It is identical with the length of the hot superconductive radiating plate, the width of the width of the hardened structure of radiating fin and the hot superconductive radiating plate It is identical.

16. hot superconductive radiating component according to claim 1, it is characterised in that：The radiating fin include several the One bulge-structure and several second bulge-structures, the protrusion direction of second bulge-structure and first bulge-structure Protrusion direction on the contrary, and length direction of first bulge-structure with second bulge-structure along the radiating fin replace Connection arrangement；The radiating fin is provided with several thermal vias, and the thermal vias is located at first bulge-structure Top or/and the top of second bulge-structure.

17. a kind of manufacture method of hot superconductive radiating component, it is characterised in that the manufacture method bag of the hot superconductive radiating component Include：Hot superconductive radiating plate and the hardened structure of radiating fin are prepared, the hardened structure of radiating fin is fixed on described by welding procedure An at least surface for hot superconductive radiating plate；Wherein, the hardened structure of the radiating fin includes at least one along parallel to described hot super The direction for leading radiating plate surface is in the radiating fin of wavy extension.

18. the manufacture method of hot superconductive radiating component according to claim 17, it is characterised in that：The hot superconductive radiating The manufacture method of component comprises the following steps：

First sheet material and the second sheet material are provided, wherein, a surface of first sheet material and second sheet material is composite surface, institute It is non-composite face to state the first sheet material and second sheet material surface relative with the composite surface；In first sheet material and described The composite surface formation impressing conduit or etching conduit of at least one of both second sheet material；

Prepare the hardened structure of radiating fin；

First sheet material and second sheet material are combined with each other by welding procedure to form the heat of composite board type structure Superconductive radiating plate, the impressing conduit or the etching conduit constitute the Super-conductive conduit road；And the radiating fin is hardened Structure is fixed on an at least surface for the hot superconductive radiating plate by welding procedure；

19. the manufacture method of hot superconductive radiating component according to claim 17, it is characterised in that：In first sheet material And the composite surface at least one of both second sheet material is formed before the impressing conduit or the etching conduit, in addition to In the composite surface or the composite surface first Combined Welding bed of material of formation of second sheet material of first sheet material, and in first plate The step of non-composite face of at least one of both material and second sheet material forms the second Combined Welding bed of material.

20. the manufacture method of hot superconductive radiating component according to claim 19, it is characterised in that：By first sheet material It is combined with each other with second sheet material by welding procedure to form the hot superconductive radiating plate of composite board type structure, and will be described At least surface that the hardened structure of radiating fin is fixed on the hot superconductive radiating plate by welding procedure comprises the following steps：

The composite surface of the composite surface of first sheet material and second sheet material is fitted in via the first Combined Welding bed of material Together；Insert filling tube and fixation between first sheet material and second sheet material, the filling tube is by the impressing groove Road or the etching conduit are communicated with the outside；

The hardened structure of the radiating fin is arranged to the outside of at least one of both first sheet material and second sheet material And fixed using welding fixture, the hardened structure of radiating fin is via the second Combined Welding bed of material and first sheet material and institute At least one of both second sheet material is stated to fit together；

21. the manufacture method of the hot superconductive radiating component according to any one of claim 18 to 20, it is characterised in that：To The step of being filled with the Super-conductive conduit road before heat-transfer working medium, in addition to detect the air-tightness on the Super-conductive conduit road.